As a dedicated Electrical Engineer at the National University of Technology (NUTECH), I specialize in supporting and teaching advanced lab courses. My expertise lies in designing innovative solutions in embedded systems, FPGA, IoT, and digital system design. With a strong academic foundation and practical experience in PCB design, I aim to bridge the gap between theoretical knowledge and real-world applications.
I am a Gold Medalist from NUTECH University, recognized for my exceptional performance in the Final Year Project category, where I designed and implemented an innovative solar-powered electric bike-car hybrid aimed at addressing urban transportation challenges.
Lab Engineer
National University of Technology (NUTECH) (Nov 2024 – Present)
Teaching Assistant for lab courses:
- Digital System Design
- Computer Communication Networks
- Internet of Things
- Embedded Systems
Intern
National Center of Robotics and Automation, EME NUST (Aug – Sep 2023)
- Designed and validated 16-layer PCBs.
- Collaborated with engineers to refine prototypes.
- Assisted in testing and documenting designs using advanced PCB design tools.
Academia
- Master of Computer Engineering (In Progress)
National University of Technology (NUTECH) | Sep 2024 – Dec 2025
- Bachelor of Electrical Engineering | CGPA: 3.31 (Gold Medalist)
National University of Technology (NUTECH) | Oct 2020 – Jul 2024
- Pre-Engineering | Grade: A1
Pakistan International School, Khobar, Saudi Arabia | Jun 2018 – Aug 2020
Professional Certificates
- MATLAB Programming for Engineers – Vanderbilt University (2022)
- Google Data Analytics Professional Certificate – Google (2023)
- Machine Learning – Stanford University (2023)
- Using Formulas and Functions in Microsoft Excel – Coursera (2023)
I am currently involved in teaching the following lab courses at National University of Technology:
- Digital System Design
A course that covers the fundamentals of digital systems, including combinational and sequential circuits, logic gates, flip-flops, and digital circuit analysis.
- Computer Communication Networks
A course focused on computer networks, where I teach students the principles of networking, including network protocols, data transmission, routing, and modern communication technologies.
I am actively researching the kinematics of a robotic arm to explore its potential applications in automation and robotics. This research aims to optimize movement patterns and increase efficiency in industrial automation processes.
Ongoing Research Projects:
- Kinematics Of Robotic Arm, 6 DOF Manipulator
1. Smart Rapid Rider (Capstone Project)
The Smart Rapid Rider aims to provide a safe, economically viable, and environmentally sustainable transportation solution for urban areas. By integrating cutting-edge technology, we focus on reducing pollution, ensuring safety, and enhancing urban mobility with a green and efficient alternative to traditional transport options.
Key Features:
- Hybrid Charging System: The bike uses both solar and electric charging systems. It charges fully in just 3 hours, making it highly efficient and eco-friendly.
- Speed and Range: Capable of reaching a maximum speed of 35 km/hr and offering a range of 32.62 miles on a single charge.
- Safety Features: The self-balancing mechanism enhances stability, while proximity sensors and tire pressure monitoring systems improve safety by alerting the rider of potential hazards or maintenance needs.
- GPS Tracking: The bike integrates real-time GPS tracking, allowing for efficient route management and ensuring the rider's safety with precise location data.
- Anti-Theft Alert: Equipped with an anti-theft system, the bike sends alerts in case of unauthorized access or movement.
- Integrated App: A mobile application provides features like emergency assistance and secure payments for added convenience and security.
- Hybrid Bike-Car Structure: The bike features a hybrid bike-car structure for enhanced safety, making it suitable for diverse road conditions.
2. 5KW Solar System Inverter
Designed a 5KW solar system inverter for the renewable energy sector, including software design and detailed system load calculations.
3. Vending Machine Controller
Developed a vending machine controller using FPGA and Verilog HDL for hardware-based control systems.
4. Traffic Light Controller
Designed a traffic light controller using FPGA and Verilog HDL to manage traffic lights based on real-time input.
5. IoT-Based Home Automation
Developed a home automation system controlled via a mobile app using embedded systems and IoT technology.
6. PID Temperature Control System
Implemented a PID-based temperature control system using Arduino Mega 2560 for precise temperature regulation.
7. Variable Power Supply
Designed and implemented a variable power supply, including software design and hardware development for voltage adjustment.
8. Automated Plant Watering System
Created a system that automatically activates a water pump based on soil moisture levels, using Arduino or Raspberry Pi.
9. Attendance System
Developed an attendance system using a PIC microcontroller and Assembly, storing attendance data in an Excel database.
10. Seven Segment Counter
Designed a counter for a seven-segment display using a PIC microcontroller, Assembly, and C.
11. Stopwatch
Programmed a stopwatch using Assembly language for a PIC microcontroller, providing accurate time tracking.
12. Maze Navigation (Freelancer Project)
Developed a maze-solving mouse that navigates in three orientations using Java.
13. Proximity Vehicle Detection
Implemented a proximity detection system for vehicles, integrated into the Smart Rapid Rider.
14. Tire Pressure Monitoring System
Designed a tire pressure monitoring system as part of the Smart Rapid Rider, ensuring vehicle safety and performance.
15. Payment Scan & Pay Method
Developed a scan-and-pay method integrated into the Smart Rapid Rider for seamless payment processing.
